This course focuses on the analysis and design of electronic circuits integrated into mechatronic systems. It provides a synergistic foundation in mechanical, electronic, and control engineering to automate and optimize industrial processes. Students develop key skills in signal processing, sensor integration (pressure, flow, and temperature), and the implementation of analog systems using operational amplifiers. The methodology combines theoretical principles with CAD tools and simulation to solve real-world engineering challenges through interdisciplinary technological solutions. 

This experimental and hands-on course equips students with the technical expertise required to manage measurement and process control systems. The curriculum covers the interpretation of P&ID diagrams, the analysis of static and dynamic sensor characteristics (such as temperature and load cells), and advanced data acquisition techniques using NI 6009 hardware. Through practical experimentation with pneumatic and capacitive switches, and data processing in environments like Excel and conveyor belt applications, students master the integration of hardware and software for the supervision and automation of complex industrial systems. 

This course introduces students to the field of industrial instrumentation, focusing on the selection and integration of monitoring and control devices. The curriculum emphasizes defining static and dynamic characteristics of instruments, interpreting P&ID diagrams, and applying international standards to industrial applications. By mastering these skills, students are prepared to optimize production processes and ensure operational reliability, contributing to the modernization of machinery and equipment within the industrial sector.